Gene list
Applied filters:
COG category: Lipid transport and metabolism
Organism: Pseudomonas putida
Number of genes found: 2
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Pseudomonas putida >gid:868245 putative nuclease ATGGCTTCCCCTCTGTCGTTGGCGAACCAGGCTCCGGCTCGACAGCCGGA AACCTCCGCCGCTCCGGTCGAAATCGAGGGCGCGCGCCGTATCGAAGTCG GCTTTTCCCCGGAGGGGTCAGCTCAAGATCTGGTGCTGCGCACCATTGGC GCGGCGAAAAGCTCGATCCGTCTTTCGGCTTACATGCTGACCAGCCCCGA AGTGACAAAAGCCCTGATCGCCGCCAAGCAACGCGGTGTCGATGTAGCCG TGGTGGCGGATCACCAAGGCAACCTGCAAGGCGGCGCTGCCCGTGCGGGC AATCACGCGCTGACCCTGCTTGCCCGCGCTGCAATCCCAACTCGTACCGT CAAGACTTACGCCATCCACCACGACAAGTTCATGGTAATCGATGGCAAGG CCGTCGAAACCGGTAGCTACAACTACACCGCTGCAGCTGCCAGGAACAAT AGTGAGAACGCTCTGGTTGTCTGGAACGATGCGGAACTCGCTGAACAGTA CCTAGCCCACTGGCAGAGCCGGTGGGAGAAGGGCCAAGCATTCAAACCAA GTTACTGA >gid:868183 xylN ATGAAAATAAAAAATTTACCCAATAAAGTAATTAGTGGTGCGATCTTGGG TATCGCATCAAGCCATGCGATAGCGACGGATGGTTTGTTCTTGGAGGGCT TTGGAGCAATTTCTAGGAGCATGGGTGGAACGGCTGTTGCGCATTATGTC GGGCCCGCGTCGATGATGGTCAACCCAGCGACCATGGATTTATCTGATTC TGCCGGCGAACTGTTGCTCGGATTCGATCTTATCACTACAGACATTGGCG CCACTAACCCGGAGACCGGGCAACATGTGTCGTCGAGTGACCATTCGAAC AACAGAGGACCCTATGTTGCCCCCCAGTTTGCTTATATCCACAAGGTTTC CAACTGGACCTTCGGTGCGGGCGTGTTTGCACAAGCCGGTGTAGGGGTGG AATATGGGAATGACAGTTTTTTGTCGCGCGGTGATGTTGGTGGAAAGGGT TATGCTGCCGGGGCGGACACCGGTCTTGAAAATGCTAGCCGTTTGTTTAT CCTTGATATACCTTTTGCTGCGAGCTTTAAAGTTAACGATCGCCTGGCCA TTGGCGGTTCACTTGATGCCAAGTGGACTGGCTTGAATCTTGATTATTTA CTTGGAATGAACCAGCTAGGGAGTCTAGCGGGGGATGGGCGAGCGTCCGG CTCCTTAATGGGGGTGATTGGAACCTTGCCCGACCCACGGGGTGTCCATT TGAGCGTTAGCAAAAACAAAGAGATGTCGAGTGGCGTTGATGGGTGGGGG TATTCGGCCAGATTAGGGTTATTGTACAAGGTGGCCCCCACAACGAATGT GGGTGTCTCCTACATGTTCAAAAGTCACATGAACGACTTGAAAGGGAAGG GGACTGTTACAGCGGTGGACGGTATTGCCGGTAATGTGCCTATCGAAGGC GAGGTTCGGTTTTTGGACTTCAATACGCCAGCCAAGCTTGATGTGGGTAT CAGCCATCAGGTCACGGATAAATGGTTGATCGCTTTTGATGTTTCTCGCG TTTTCTGGAAGGATGCTTTGAAGGACATTAAATTGGGGTTCGCCAGTGGG ATGGGCGATGTTGACTTAAAGCTGCCGCAGGATGCCAAGGATCAAACGAT CATGGCGATTGGTACGTCGTATTCGGTAACCCCGCGTTTAACCCTGCGAG CAGGATACCGTCATGCCACGCAGCCATTCAATGACGAAGGGCTGCTGGCG CTGATTCCAGCAGTGCTACAGGATCATGCCTCTTTAGGATTTAGTTATCA GTTATCCAAATCAGGCAGATTCGATGCTGCCTACTCGCACGCCTTCAAGG AAAGTATGACCAACCGGTCGGCTTACAACACCTCATCGCCCGTGAAATCG TCCATAGCGCAAGATAATTTCGTCCTGGCCTATAATTATTCATTCTGA